Neural Networks to Estimate Generalized Propensity Scores for Continuous Treatment Doses.

IF 3 4区社会学 Q1 SOCIAL SCIENCES, INTERDISCIPLINARY

Evaluation Review Pub Date : 2021-03-03 DOI:10.1177/0193841X21992199

Zachary K Collier, Walter L Leite, Allison Karpyn

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引用次数: 0

Abstract

Background: The generalized propensity score (GPS) addresses selection bias due to observed confounding variables and provides a means to demonstrate causality of continuous treatment doses with propensity score analyses. Estimating the GPS with parametric models obliges researchers to meet improbable conditions such as correct model specification, normal distribution of variables, and large sample sizes.

Objectives: The purpose of this Monte Carlo simulation study is to examine the performance of neural networks as compared to full factorial regression models to estimate GPS in the presence of Gaussian and skewed treatment doses and small to moderate sample sizes.

Research design: A detailed conceptual introduction of neural networks is provided, as well as an illustration of selection of hyperparameters to estimate GPS. An example from public health and nutrition literature uses residential distance as a treatment variable to illustrate how neural networks can be used in a propensity score analysis to estimate a dose-response function of grocery spending behaviors.

Results: We found substantially higher correlations and lower mean squared error values after comparing true GPS with the scores estimated by neural networks. The implication is that more selection bias was removed using GPS estimated with neural networks than using GPS estimated with classical regression.

Conclusions: This study proposes a new methodological procedure, neural networks, to estimate GPS. Neural networks are not sensitive to the assumptions of linear regression and other parametric models and have been shown to be a contender against parametric approaches to estimate propensity scores for continuous treatments.

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用神经网络估算连续治疗剂量的广义倾向分数

背景：广义倾向得分（GPS）可以解决观察到的混杂变量导致的选择偏差问题，并提供了一种通过倾向得分分析来证明连续治疗剂量因果关系的方法。用参数模型估算 GPS 需要研究人员满足一些不可能满足的条件，如正确的模型规范、变量的正态分布和大样本量：本蒙特卡罗模拟研究的目的是考察神经网络与全因子回归模型相比，在高斯和偏斜治疗剂量以及中小规模样本的情况下估算 GPS 的性能：研究设计：详细介绍了神经网络的概念，并说明了如何选择超参数来估算全球定位系统。公共卫生和营养文献中的一个例子使用住宅距离作为处理变量，说明神经网络如何用于倾向得分分析，以估算杂货消费行为的剂量反应函数：我们发现，将真实 GPS 与神经网络估算的分数进行比较后，相关性大大提高，均方误差值也大大降低。这意味着使用神经网络估算的 GPS 比使用经典回归估算的 GPS 能够消除更多的选择偏差：本研究提出了一种估算 GPS 的新方法--神经网络。神经网络对线性回归和其他参数模型的假设并不敏感，而且已被证明是估计连续治疗倾向分数的参数方法的竞争者。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Evaluation Review SOCIAL SCIENCES, INTERDISCIPLINARY-

CiteScore

2.90

自引率

11.10%

发文量

期刊介绍： Evaluation Review is the forum for researchers, planners, and policy makers engaged in the development, implementation, and utilization of studies aimed at the betterment of the human condition. The Editors invite submission of papers reporting the findings of evaluation studies in such fields as child development, health, education, income security, manpower, mental health, criminal justice, and the physical and social environments. In addition, Evaluation Review will contain articles on methodological developments, discussions of the state of the art, and commentaries on issues related to the application of research results. Special features will include periodic review essays, "research briefs", and "craft reports".